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Changes made to recent versions of GNU Fortran are listed below, with the most recent version first.
The changes are generally listed in order:
This order is not strict--for example, some items involve a combination of these elements.
Note that two variants of g77
are tracked below.
The egcs
variant is described vis-a-vis
previous versions of egcs
and/or
an official FSF version, as appropriate.
Note that all such variants are obsolete as of July 1999 -
the information is retained here only for its historical value.
Therefore, egcs
versions sometimes have multiple listings
to help clarify how they differ from other versions,
though this can make getting a complete picture
of what a particular egcs
version contains
somewhat more difficult.
For information on bugs in the GCC-3.1 version of g77
,
see Known Bugs In GNU Fortran.
Warning: The information below is still under development,
and might not accurately reflect the g77
code base
of which it is a part.
Efforts are made to keep it somewhat up-to-date,
but they are particularly concentrated
on any version of this information
that is distributed as part of a released g77
.
In particular, while this information is intended to apply to
the GCC-3.1 version of g77
,
only an official release of that version
is expected to contain documentation that is
most consistent with the g77
product in that version.
Nevertheless, information on previous releases of g77
, below,
is likely to be more up-to-date and accurate
than the equivalent information that accompanied
those releases,
assuming the last-updated date of the information below
is later than the dates of those releases.
That's due to attempts to keep this development version
of news about previous g77
versions up-to-date.
An online, "live" version of this document
(derived directly from the mainline, development version
of g77
within gcc
)
is available at
http://www.gnu.org/software/gcc/onlinedocs/g77_news.html.
The following information was last updated on 2001-06-03:
GCC
3.1 versus GCC
3.0: GCC
3.0 versus GCC
2.95: ftruncate
OS function. Thanks go to the GAMESS developers
for bringing this to our attention.
-g
, -ggdb
or -gdwarf[-2]
(where
appropriate for your target) now also enables debugging information
for COMMON BLOCK and EQUIVALENCE items to be emitted.
Thanks go to Andrew Vaught (andy@xena.eas.asu.edu) and
George Helffrich (george@geology.bristol.ac.uk) for
fixing this longstanding problem.
-femulate-complex
to compile Fortran code using COMPLEX arithmetic, even on 64-bit machines
(like the Alpha). This will improve code generation.
libf2c
as of 2000-12-05.
This fixes a bug where a namelist containing initialization of LOGICAL items and a variable starting with T or F would be read incorrectly.
TtyNam
intrinsics now set Name to all spaces (at run time)
if the system has no ttyname
implementation available.
libf2c
as of 1999-06-28.
This fixes a bug whereby
input to a NAMELIST
read involving a repeat count,
such as `K(5)=10*3',
was not properly handled by libf2c
.
The first item was written to `K(5)',
but the remaining nine were written elsewhere (still within the array),
not necessarily starting at `K(6)'.
GCC
2.95 (EGCS
1.2) versus EGCS
1.1.2: g77
no longer generates bad code for assignments,
or other conversions,
of REAL
or COMPLEX
constant expressions
to type INTEGER(KIND=2)
(often referred to as INTEGER*8
).
For example, `INTEGER*8 J; J = 4E10' now works as documented.
g77
no longer truncates INTEGER(KIND=2)
(usually INTEGER*8
)
subscript expressions when evaluating array references
on systems with pointers widers than INTEGER(KIND=1)
(such as Alphas).
g77
no longer generates bad code
for an assignment to a COMPLEX
variable or array
that partially overlaps one or more of the sources
of the same assignment
(a very rare construction).
It now assigns through a temporary,
in cases where such partial overlap is deemed possible.
libg2c
(libf2c
) no longer loses track
of the file being worked on
during a BACKSPACE
operation.
libg2c
(libf2c
) fixes a bug whereby
input to a NAMELIST
read involving a repeat count,
such as `K(5)=10*3',
was not properly handled by libf2c
.
The first item was written to `K(5)',
but the remaining nine were written elsewhere (still within the array),
not necessarily starting at `K(6)'.
Date
intrinsic now returns the correct result
on big-endian systems.
g77
so it no longer crashes when compiling
I/O statements using keywords that define INTEGER
values,
such as `IOSTAT=j',
where j is other than default INTEGER
(such as INTEGER*2
).
Instead, it issues a diagnostic.
g77
so it properly handles `DATA A/rpt*val/',
where rpt is not default INTEGER
, such as INTEGER*2
,
instead of producing a spurious diagnostic.
Also fix `DATA (A(I),I=1,N)',
where `N' is not default INTEGER
to work instead of crashing g77
.
g77
to compile run-time bounds checks
of array subscripts, as well as of substring start and end points.
libg2c
now supports building as multilibbed library,
which provides better support for systems
that require options such as `-mieee'
to work properly.
g77
as if they ended in `.for' and `.fpp', respectively.
CTime
, DTime
, ETime
, and TtyNam
intrinsics has been swapped.
The argument serving as the returned value
for the corresponding function forms
now is the second argument,
making these consistent with the other subroutine forms
of libU77
intrinsics.
g77
now warns about a reference to an intrinsic
that has an interface that is not Year 2000 (Y2K) compliant.
Also, libg2c
has been changed to increase the likelihood
of catching references to the implementations of these intrinsics
using the EXTERNAL
mechanism
(which would avoid the new warnings).
See section 12.2.2 Year 2000 (Y2K) Problems, for more information.
g77
now warns about a reference to a function
when the corresponding subsequent function program unit
disagrees with the reference concerning the type of the function.
COMPLEX
data type.
g77
reliably aligns local double-precision variables
that are not in EQUIVALENCE
areas
and not SAVE
'd.
g77
now open-codes ("inlines") division of COMPLEX
operands
instead of generating a run-time call to
the libf2c
routines c_div
or z_div
,
unless the `-Os' option is specified.
g77
no longer generates code to maintain errno
,
a C-language concept,
when performing operations such as the SqRt
intrinsic.
g77
developers can temporarily use
the `-fflatten-arrays' option
to compare how the compiler handles code generation
using C-like constructs as compared to the
Fortran-like method constructs normally used.
g77
front end's code-generation component
was rewritten.
It now generates code using facilities more robustly supported
by the gcc
back end.
One effect of this rewrite is that some codes no longer produce
a spurious "label lab used before containing binding contour"
message.
libf2c
as of 1999-05-10.
There is no g77
version 0.5.24 at this time,
or planned.
0.5.24 is the version number designated for bug fixes and,
perhaps, some new features added,
to 0.5.23.
Version 0.5.23 requires gcc
2.8.1,
as 0.5.24 was planned to require.
Due to EGCS
becoming GCC
(which is now an acronym for "GNU Compiler Collection"),
and EGCS
1.2 becoming officially designated GCC
2.95,
there seems to be no need for an actual 0.5.24 release.
To reduce the confusion already resulting from use of 0.5.24
to designate g77
versions within EGCS
versions 1.0 and 1.1,
as well as in versions of g77
documentation and notices
during that period,
"mainline" g77
version numbering resumes
at 0.5.25 with GCC
2.95 (EGCS
1.2),
skipping over 0.5.24 as a placeholder version number.
To repeat, there is no g77
0.5.24, but there is now a 0.5.25.
Please remain calm and return to your keypunch units.
EGCS
1.1.2 versus EGCS
1.1.1: IDate
intrinsic (VXT) (in libg2c
)
so the returned year is in the documented, non-Y2K-compliant range
of 0-99,
instead of being returned as 100 in the year 2000.
See section 12.5.2.43 IDate Intrinsic (VXT), for more information.
Date_and_Time
intrinsic (in libg2c
)
to return the milliseconds value properly
in Values(8).
LStat
intrinsic (in libg2c
)
to return device-ID information properly
in SArray(7).
EGCS
1.1.1 versus EGCS
1.1: libg2c
so it performs an implicit ENDFILE
operation
(as appropriate)
whenever a REWIND
is done.
(This bug was introduced in 0.5.23 and egcs
1.1 in
g77
's version of libf2c
.)
libg2c
so it no longer crashes with a spurious diagnostic
upon doing any I/O following a direct formatted write.
(This bug was introduced in 0.5.23 and egcs
1.1 in
g77
's version of libf2c
.)
g77
so it no longer crashes compiling references
to the Rand
intrinsic on some systems.
g77
portion of installation process so it works
better on some systems
(those with shells requiring `else true' clauses
on if
constructs
for the completion code to be set properly).
EGCS
1.1 versus EGCS
1.0.3: libU77
intrinsic HostNm
that wrote one byte beyond the end of its CHARACTER
argument,
and in the libU77
intrinsics
GMTime
and LTime
that overwrote their arguments.
g77
,
even on systems with pointers having
different sizes than integers.
This bug is not known to have existed in any
recent version of gcc
.
It was introduced in an early release of egcs
.
EXTERNAL
,
passing that external as a dummy argument
without explicitly giving it a type,
and, in a subsequent program unit,
referencing that external as
an external function with a different type
no longer crash g77
.
CASE DEFAULT
no longer crashes g77
.
g77
for procedures containing ENTRY
statements.
INTEGER
expression.
g77
`-g' option so procedures that
use ENTRY
can be stepped through, line by line,
in gdb
.
REAL
argument to intrinsics
Second
and CPU_Time
.
tempnam
, if available, to open scratch files
(as in `OPEN(STATUS='SCRATCH')')
so that the TMPDIR
environment variable,
if present, is used.
g77
's version of libf2c
separates out
the setting of global state
(such as command-line arguments and signal handling)
from `main.o' into distinct, new library
archive members.
This should make it easier to write portable applications
that have their own (non-Fortran) main()
routine
properly set up the libf2c
environment, even
when libf2c
(now libg2c
) is a shared library.
g77
no longer installs the `f77' command
and `f77.1' man page
in the `/usr' or `/usr/local' heirarchy,
even if the `f77-install-ok' file exists
in the source or build directory.
See the installation documentation for more information.
g77
no longer installs the `libf2c.a' library
and `f2c.h' include file
in the `/usr' or `/usr/local' heirarchy,
even if the `f2c-install-ok' or `f2c-exists-ok' files exist
in the source or build directory.
See the installation documentation for more information.
g77
has been
renamed to `libg2c.a'.
It is installed only in the gcc
"private"
directory heirarchy, `gcc-lib'.
This allows system administrators and users to choose which
version of the libf2c
library from netlib
they
wish to use on a case-by-case basis.
See the installation documentation for more information.
g77
has been renamed to `g2c.h'.
It is installed only in the gcc
"private"
directory heirarchy, `gcc-lib'.
This allows system administrators and users to choose which
version of the include file from netlib
they
wish to use on a case-by-case basis.
See the installation documentation for more information.
g77
command now expects the run-time library
to be named libg2c.a
instead of libf2c.a
,
to ensure that a version other than the one built and
installed as part of the same g77
version is picked up.
g77
creates subdirectories it needs only as it
needs them.
Other cleaning up of the configuration and build process
has been performed as well.
install-info
now used to update the directory of
Info documentation to contain an entry for g77
(during installation).
OPEN
, INQUIRE
, READ
, and
WRITE
statements,
and about truncations of various sorts of constants.
FORMAT
expressions so that
a null byte is appended to the last operand if it
is a constant.
This provides a cleaner run-time diagnostic as provided
by libf2c
for statements like `PRINT '(I1', 42'.
libf2c
as of 1998-06-18
should fix a variety of problems, including
those involving some uses of the T
format
specifier, and perhaps some build (porting) problems
as well.
EGCS
1.1 versus g77
0.5.23: DNRM2
routine.
The x87 coprocessor stack was being
mismanaged in cases involving assigned GOTO
and ASSIGN
.
g77
no longer produces incorrect code
and initial values
for EQUIVALENCE
and COMMON
aggregates that, due to "unnatural" ordering of members
vis-a-vis their types, require initial padding.
g77
crash compiling code
containing the construct `CMPLX(0.)' or similar.
g77
no longer crashes when compiling code
containing specification statements such as
`INTEGER(KIND=7) PTR'.
g77
no longer crashes when compiling code
such as `J = SIGNAL(1, 2)'.
g77
now treats `%LOC(expr)' and
`LOC(expr)' as "ordinary" expressions
when they are used as arguments in procedure calls.
This change applies only to global (filewide) analysis,
making it consistent with
how g77
actually generates code
for these cases.
Previously, g77
treated these expressions
as denoting special "pointer" arguments
for the purposes of filewide analysis.
g77
crash
(or apparently infinite run-time)
when compiling certain complicated expressions
involving COMPLEX
arithmetic
(especially multiplication).
Generally, this affects only local variables and arrays
having the SAVE
attribute
or given initial values via DATA
.
g77
driver now ensures that `-lg2c'
is specified in the link phase prior to any
occurrence of `-lm'.
This prevents accidentally linking to a routine
in the SunOS4 `-lm' library
when the generated code wants to link to the one
in libf2c
(libg2c
).
g77
emits more debugging information when
`-g' is used.
This new information allows, for example,
which __g77_length_a to be used in gdb
to determine the type of the phantom length argument
supplied with CHARACTER
variables.
This information pertains to internally-generated
type, variable, and other information,
not to the longstanding deficiencies vis-a-vis
COMMON
and EQUIVALENCE
.
Date_and_Time
intrinsic now is
supported.
System_Clock
intrinsic allows
the optional arguments (except for the Count
argument) to be omitted.
libf2c
as of 1998-06-18.
g77
, due to using the
"vanilla" gcc
back end instead of patching
it to fix a few bugs and improve performance in a
few cases.
Features that have been dropped from this version
of g77
due to their being implemented
via g77
-specific patches to the gcc
back end in previous releases include:
__restrict__
keyword,
the options `-fargument-alias', `-fargument-noalias',
and `-fargument-noalias-global',
and the corresponding alias-analysis code.
(egcs
has the alias-analysis
code, but not the __restrict__
keyword.
egcs
g77
users benefit from the alias-analysis
code despite the lack of the __restrict__
keyword,
which is a C-language construct.)
(egcs
supports these options.
g77
users of egcs
benefit from them even if
they are not explicitly specified,
because the defaults are optimized for g77
users.)
Note that the `gcc/f/gbe/' subdirectory has been removed
from this distribution as a result of g77
no longer
including patches for the gcc
back end.
libU77
intrinsic HostNm
that wrote one byte beyond the end of its CHARACTER
argument,
and in the libU77
intrinsics
GMTime
and LTime
that overwrote their arguments.
gcc
version 2.8,
and remove support for prior versions of gcc
.
g77
now does all the driving,
just like gcc
.
CASE DEFAULT
no longer crashes g77
.
EXTERNAL
,
passing that external as a dummy argument
without explicitly giving it a type,
and, in a subsequent program unit,
referencing that external as
an external function with a different type
no longer crash g77
.
g77
no longer installs the `f77' command
and `f77.1' man page
in the `/usr' or `/usr/local' heirarchy,
even if the `f77-install-ok' file exists
in the source or build directory.
See the installation documentation for more information.
g77
no longer installs the `libf2c.a' library
and `f2c.h' include file
in the `/usr' or `/usr/local' heirarchy,
even if the `f2c-install-ok' or `f2c-exists-ok' files exist
in the source or build directory.
See the installation documentation for more information.
g77
has been
renamed to `libg2c.a'.
It is installed only in the gcc
"private"
directory heirarchy, `gcc-lib'.
This allows system administrators and users to choose which
version of the libf2c
library from netlib
they
wish to use on a case-by-case basis.
See the installation documentation for more information.
g77
has been renamed to `g2c.h'.
It is installed only in the gcc
"private"
directory heirarchy, `gcc-lib'.
This allows system administrators and users to choose which
version of the include file from netlib
they
wish to use on a case-by-case basis.
See the installation documentation for more information.
g77
command now expects the run-time library
to be named libg2c.a
instead of libf2c.a
,
to ensure that a version other than the one built and
installed as part of the same g77
version is picked up.
g77
for procedures containing ENTRY
statements.
g77
's version of libf2c
separates out
the setting of global state
(such as command-line arguments and signal handling)
from `main.o' into distinct, new library
archive members.
This should make it easier to write portable applications
that have their own (non-Fortran) main()
routine
properly set up the libf2c
environment, even
when libf2c
(now libg2c
) is a shared library.
g77
creates subdirectories it needs only as it
needs them, thus avoiding unnecessary creation of, for example,
`stage1/f/runtime' when doing a non-bootstrap build.
Other cleaning up of the configuration and build process
has been performed as well.
install-info
now used to update the directory of
Info documentation to contain an entry for g77
(during installation).
OPEN
, INQUIRE
, READ
, and
WRITE
statements,
and about truncations of various sorts of constants.
libf2c
as of 1998-04-20.
This should fix a variety of problems, including
those involving some uses of the T
format
specifier, and perhaps some build (porting) problems
as well.
DO
loops that
have one or more references to the iteration variable,
or to aliases of it, in their control expressions.
For example, `DO 10 J=2,J' now is compiled correctly.
DNRM2
routine.
The x87 coprocessor stack was being
mismanaged in cases involving assigned GOTO
and ASSIGN
.
DTime
intrinsic so as not to truncate
results to integer values (on some systems).
Signal
intrinsic so it offers portable
support for 64-bit systems (such as Digital Alphas
running GNU/Linux).
NAMELIST
on 64-bit
machines such as Alphas.
g77
version of libf2c
so it no longer
produces a spurious `I/O recursion' diagnostic at run time
when an I/O operation (such as `READ *,I') is interrupted
in a manner that causes the program to be terminated
via the f_exit
routine (such as via C-c).
g77
crash triggered by CASE
statement with
an omitted lower or upper bound.
g77
crash compiling references to CPU_Time
intrinsic.
g77
crash
(or apparently infinite run-time)
when compiling certain complicated expressions
involving COMPLEX
arithmetic
(especially multiplication).
g77
crash on statements such as
`PRINT *, (REAL(Z(I)),I=1,2)', where
`Z' is DOUBLE COMPLEX
.
g++
crash.
INTEGER
expression.
g77
`-g' option so procedures that
use ENTRY
can be stepped through, line by line,
in gdb
.
gcc
back end for
Intel x86 architecture.
REAL
argument to intrinsics
Second
and CPU_Time
.
Int2
and Int8
.
tempnam
, if available, to open scratch files
(as in `OPEN(STATUS='SCRATCH')')
so that the TMPDIR
environment variable,
if present, is used.
gcc
keyword restrict
to
__restrict__
, to avoid rejecting valid, existing,
C programs.
Support for restrict
is now more like support
for complex
.
libf2c
so it is more likely that the printing of the
active format string is limited to the string,
with no trailing garbage being printed.
(Unlike f2c
, g77
did not append
a null byte to its compiled form of every
format string specified via a FORMAT
statement.
However, f2c
would exhibit the problem
anyway for a statement like `PRINT '(I)garbage', 1'
by printing `(I)garbage' as the format string.)
FORMAT
expressions so that
a null byte is appended to the last operand if it
is a constant.
This provides a cleaner run-time diagnostic as provided
by libf2c
for statements like `PRINT '(I1', 42'.
libf2c
.
libf2c
as of 1997-09-23.
This fixes a formatted-I/O bug that afflicted
64-bit systems with 32-bit integers
(such as Digital Alpha running GNU/Linux).
EGCS
1.0.2 versus EGCS
1.0.1: g77
crash triggered by CASE
statement with
an omitted lower or upper bound.
g77
crash on statements such as
`PRINT *, (REAL(Z(I)),I=1,2)', where
`Z' is DOUBLE COMPLEX
.
EGCS
1.0.1 versus EGCS
1.0: NAMELIST
on 64-bit
machines such as Alphas.
EGCS
1.0 versus g77
0.5.21: egcs
contains several regressions against
version 0.5.21 of g77
,
due to using the
"vanilla" gcc
back end instead of patching
it to fix a few bugs and improve performance in a
few cases.
Features that have been dropped from this version
of g77
due to their being implemented
via g77
-specific patches to the gcc
back end in previous releases include:
restrict
keyword.
Note that the `gcc/f/gbe/' subdirectory has been removed
from this distribution as a result of g77
being fully integrated with
the egcs
variant of the gcc
back end.
DO
loops that
have one or more references to the iteration variable,
or to aliases of it, in their control expressions.
For example, `DO 10 J=2,J' now is compiled correctly.
DTime
intrinsic so as not to truncate
results to integer values (on some systems).
g77
built on gcc
version 2.8.1
on m68k-next-nextstep3 configurations
when using the `-O2' option,
is now compiled correctly.
It is believed that a C function known to miscompile
on that configuration
when using the `-O2 -funroll-loops' options
also is now compiled correctly.
egcs
versions of gcc
.
g77
now does all the driving,
just like gcc
.
Int2
and Int8
.
libf2c
so it is more likely that the printing of the
active format string is limited to the string,
with no trailing garbage being printed.
(Unlike f2c
, g77
did not append
a null byte to its compiled form of every
format string specified via a FORMAT
statement.
However, f2c
would exhibit the problem
anyway for a statement like `PRINT '(I)garbage', 1'
by printing `(I)garbage' as the format string.)
libf2c
as of 1997-09-23.
This fixes a formatted-I/O bug that afflicted
64-bit systems with 32-bit integers
(such as Digital Alpha running GNU/Linux).
gcc
(C, C++,
Fortran, and so on).
EQUIVALENCE
with a
DATA
statement that follows
the first executable statement (or is
treated as an executable-context statement
as a result of using the `-fpedantic'
option).
gcc
back end issues a warning about such a case.
This bug afflicted all code compiled by
version 2.7.2.2.f.2 of gcc
(C, C++,
Fortran, and so on).
DATA
or similar to initialize a COMPLEX
variable or
array to zero.
AND
, OR
,
or XOR
intrinsics.
COMMON
or EQUIVALENCE
variable
as the target of an ASSIGN
or assigned-GOTO
statement.
FTell
or
FPutC
) as such and as the name of a procedure
or common block.
Such dual use of a name in a program is allowed by
the standard.
SAVE
or the `-fno-automatic' option
is in effect.
This avoids a compiler crash in some cases.
DOUBLE PRECISION
optimally on Pentium and
Pentium Pro architectures (586 and 686 in gcc
).
The default is to issue such warnings, which are
new as of this version of g77
.
The default is to issue such diagnostics and flag the compilation as unsuccessful. With this option, the diagnostics are issued as warnings, or, if `-Wno-globals' is specified, are not issued at all.
This option also disables inlining of global procedures, to avoid compiler crashes resulting from coding errors that these diagnostics normally would identify.
g77
rejected a
second initialization specification immediately
following the first's closing `/' without
an intervening comma in a DATA
statement,
and the second specification was an implied-DO list.
gcc
back end so
certain complicated expressions involving COMPLEX
arithmetic (especially multiplication) don't appear to
take forever to compile.
gcc
back end.
gcc
fixes that seem useful in
g77
's version of gcc
.
(See `gcc/ChangeLog' for details--compare it
to that file in the vanilla gcc-2.7.2.3.tar.gz
distribution.)
libU77
routines that accept file and other names
to strip trailing blanks from them, for consistency
with other implementations.
Blanks may be forcibly appended to such names by
appending a single null character (`CHAR(0)')
to the significant trailing blanks.
CHMOD
intrinsic to work with file names
that have embedded blanks, commas, and so on.
SIGNAL
intrinsic so it accepts an
optional third Status
argument.
IDATE()
intrinsic subroutine (VXT form)
so it accepts arguments in the correct order.
Documentation fixed accordingly, and for
GMTIME()
and LTIME()
as well.
libU77
intrinsics to
support existing code more directly.
Such changes include allowing both subroutine and
function forms of many routines, changing MCLOCK()
and TIME()
to return INTEGER(KIND=1)
values,
introducing MCLOCK8()
and TIME8()
to
return INTEGER(KIND=2)
values,
and placing functions that are intended to perform
side effects in a new intrinsic group, badu77
.
libU77
so it is more portable.
g77
and gcc
now do a somewhat better
job detecting and diagnosing arrays that are too
large to handle before these cause diagnostics
during the assembler or linker phase, a compiler
crash, or generation of incorrect code.
restrict
keyword in gcc
front end.
gcc
version 2.7.2.3
(modified by g77
into version 2.7.2.3.f.1),
and remove
support for prior versions of gcc
.
gcc
back
end into g77
's, so GNAT users do not need
to apply GNAT's patches to build both GNAT and g77
from the same source tree.
make
rules and related code so that
generation of Info documentation doesn't require
compilation using gcc
.
Now, any ANSI C compiler should be adequate to
produce the g77
documentation (in particular,
the tables of intrinsics) from scratch.
INT2
and INT8
intrinsics.
CPU_TIME
intrinsic.
ALARM
intrinsic.
CTIME
intrinsic now accepts any INTEGER
argument, not just INTEGER(KIND=2)
.
gcc
`specs' file.
make
rule g77-cross
, used only for
cross-compiling.
libf2c
build procedure to re-archive library
if previous attempt to archive was interrupted.
gcc
to unroll loops only during the last
invocation (of as many as two invocations) of loop
optimization.
g77
driver to recognize `-fsyntax-only'
as an option that inhibits linking, just like `-c' or
`-S', and to recognize and properly handle the
`-nostdlib', `-M', `-MM', `-nodefaultlibs',
and `-Xlinker' options.
libf2c
as of 1997-08-16.
libf2c
to consistently and clearly diagnose
recursive I/O (at run time).
g77
driver now prints version information (such as produced
by g77 -v) to stderr
instead of stdout
.
ratfor
command, available
separately.
gcc
determines what kind of
system is being configured and what kinds are supported.
For example, GNU Linux/Alpha ELF systems now are directly
supported.
libf2c
that come
from netlib.bell-labs.com
; give any such files
that aren't quite accurate in g77
's version of
libf2c
the suffix `.netlib'.
INTEGER(KIND=0)
for future use.
This option specifies that non-decimal-radix
constants using the prefixed-radix form (such as `Z'1234'')
are to be interpreted as INTEGER(KIND=1)
constants.
Specify `-ftypeless-boz' to cause such
constants to be interpreted as typeless.
(Version 0.5.19 introduced `-fno-typeless-boz' and its inverse.)
See section Options Controlling Fortran Dialect, for information on the `-ftypeless-boz' option.
Some programs might use names that clash with
intrinsic names defined (and now enabled) by these
options or by the new libU77
intrinsics.
Users of such programs might need to compile them
differently (using, for example, `-ff90-intrinsics-disable')
or, better yet, insert appropriate EXTERNAL
statements specifying that these names are not intended
to be names of intrinsics.
ALWAYS_FLUSH
macro is no longer defined when
building libf2c
, which should result in improved
I/O performance, especially over NFS.
Note: If you have code that depends on the behavior
of libf2c
when built with ALWAYS_FLUSH
defined,
you will have to modify libf2c
accordingly before
building it from this and future versions of g77
.
See section 16.4.8 Output Assumed To Flush, for more information.
libU77
has been
added to the version of libf2c
distributed with
and built as part of g77
.
g77
now knows about the routines in this library
as intrinsics.
See section 11.6 VXT Fortran, for more information on the constructs recognized when the `-fvxt' option is specified.
If you used one of these deleted options, you should
re-read the pertinent documentation to determine which
options, if any, are appropriate for compiling your
code with this version of g77
.
See section 11. Other Dialects, for more information.
(Enabling all the `-fugly-*' options is unlikely to be feasible, or sensible, in the future, so users should learn to specify only those `-fugly-*' options they really need for a particular source file.)
See section 11.9.2 Ugly Assumed-Size Arrays, for more information.
g77
front end and
the gcc
back end to better support Alpha (AXP)
machines.
This includes providing at least one bug-fix to the
gcc
back end for Alphas.
LOC()
intrinsic and %LOC()
construct now return
values of INTEGER(KIND=0)
type,
as defined by the GNU Fortran language.
This type is wide enough (holds the same number of bits) as the character-pointer type on the machine.
On most machines, this won't make a difference,
whereas, on Alphas and other systems with 64-bit pointers,
the INTEGER(KIND=0)
type is equivalent to INTEGER(KIND=2)
(often referred to as INTEGER*8
)
instead of the more common INTEGER(KIND=1)
(often referred to as INTEGER*4
).
COMPLEX
arithmetic in the g77
front
end, to avoid bugs in complex
support in the
gcc
back end.
New option `-fno-emulate-complex'
causes g77
to revert the 0.5.19 behavior.
g77
command driver so that `g77 -o foo.f'
no longer deletes `foo.f' before issuing other
diagnostics, and so the `-x' option is properly
handled.
gcc
back end.
This works as it does for gcc
itself--program units
may be inlined for invocations that follow them in the same
program unit, as long as the appropriate compile-time
options are specified.
COMMON
areas when any of
these are defined (assigned to) by Fortran code.
This can result in faster and/or smaller programs when compiling with optimization enabled, though on some systems this effect is observed only when `-fforce-addr' also is specified.
New options `-falias-check', `-fargument-alias',
`-fargument-noalias',
and `-fno-argument-noalias-global' control the
way g77
handles potential aliasing.
See section 16.4.7 Aliasing Assumed To Work, for detailed information on why the
new defaults might result in some programs no longer working the way they
did when compiled by previous versions of g77
.
CONJG()
and DCONJG()
intrinsics now
are compiled in-line.
g77
compiler has been changed back to
assume libf2c
has no aliasing problems in
its implementations of the COMPLEX
(and
DOUBLE COMPLEX
) intrinsics.
The libf2c
has been changed to have no such
problems.
As a result, 0.5.20 is expected to offer improved performance over 0.5.19.1, perhaps as good as 0.5.19 in most or all cases, due to this change alone.
Note: This change requires version 0.5.20 of
libf2c
, at least, when linking code produced
by any versions of g77
other than 0.5.19.1.
Use `g77 -v' to determine the version numbers
of the libF77
, libI77
, and libU77
components of the libf2c
library.
(If these version numbers are not printed--in
particular, if the linker complains about unresolved
references to names like `g77__fvers__'---that
strongly suggests your installation has an obsolete
version of libf2c
.)
g77
uses a separate memory location
to hold assigned statement labels.)
See section 11.9.7 Ugly Assigned Labels, for more information.
FORMAT
and ENTRY
statements now are allowed to
precede IMPLICIT NONE
statements.
SELECT CASE
on
CHARACTER
type, instead of crashing, at compile time.
libf2c
archive
(`libf2c.a') so that members are added to it
only when truly necessary, so the user that installs
an already-built g77
doesn't need to have write
access to the build tree (whereas the user doing the
build might not have access to install new software
on the system).
gcc
version 2.7.2.2
(modified by g77
into version 2.7.2.2.f.2),
and remove
support for prior versions of gcc
.
libf2c
as of 1997-02-08, and
fix up some of the build procedures.
g77
,
fixing minor bugs (such as deletion of any file
named `f771' in the parent directory of gcc/
).
INTEGER(KIND=2)
(often referred to as INTEGER*8
)
available in
libf2c
and `f2c.h' so that f2c
users
may make full use of its features via the g77
version of `f2c.h' and the INTEGER(KIND=2)
support routines in the g77
version of libf2c
.
g77
driver and libf2c
so that `g77 -v'
yields version information on the library.
SNGL
and FLOAT
intrinsics now are
specific intrinsics, instead of synonyms for the
generic intrinsic REAL
.
REALPART
, IMAGPART
,
COMPLEX
,
LONG
, and SHORT
.
gnu
, has been added
to contain the new REALPART
, IMAGPART
,
and COMPLEX
intrinsics.
An old group, dcp
, has been removed.
DOUBLE COMPLEX
(or any
complex type other than COMPLEX
), unless
`-ff90' option specifies Fortran 90 interpretation
or new `-fugly-complex' option, in conjunction with
`-fnot-f90', specifies f2c
interpretation.
(Hence the menu item M
for the node
Diagnostics
in the top-level menu of
the Info documentation.)
Information on previous versions is archived
in `gcc/gcc/f/news.texi'
following the test of the DOC-OLDNEWS
macro.
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